Separation of methane from different gas mixtures using modified silicon carbide nanosheet: Micro and macro scale numerical studies

This research discusses the separation of methane gas from three different gas mixtures, CH4/H2S, CH4/N2 and CH4/CO2, using a modified silicon carbide nanosheet (SiCNS) membrane using both molecular dynamics (MD) and computational fluid dynamics (CFD) methods. The research examines the effects of di...

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Veröffentlicht in:Chinese journal of chemical engineering Jg. 28; H. 5; S. 1268 - 1276
Hauptverfasser: Bayat, Golchehreh, Saghatchi, Roozbeh, Azamat, Jafar, Khataee, Alireza
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier B.V 01.05.2020
Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran%Integrated Manufacturing Technologies Research and Application Center, Faculty of Engineering and Natural Sciences, Sabanci University, Orhanli, Tuzla, Istanbul 34956, Turkey%Department of Basic Sciences, Farhangian University, Tehran, Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran
Department of Environmental Engineering, Gebze Technical University, Gebze 41400, Turkey
Institute of Research and Development, Duy Tan University, Da Nang 550000, Viet Nam
Schlagworte:
Computational fluid dynamics
Gas separation
Molecular dynamics
Silicon carbide nanosheets
Molecular dynamics
Gas separation
Computational fluid dynamics
Silicon carbide nanosheets
ISSN:1004-9541, 2210-321X
Online-Zugang:Volltext
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Abstract This research discusses the separation of methane gas from three different gas mixtures, CH4/H2S, CH4/N2 and CH4/CO2, using a modified silicon carbide nanosheet (SiCNS) membrane using both molecular dynamics (MD) and computational fluid dynamics (CFD) methods. The research examines the effects of different structures of the SiCNSs on the separation of these gas mixtures. Various parameters including the potential of the mean force, separation factor, permeation rate, selectivity and diffusivity are discussed in detail. Our MD simulations showed that the separation of CH4/H2S, and CH4/CO2 mixtures was successful, while simulation demonstrated a poor result for the CH4/N2 mixture. The effect of temperature on the diffusivity of gas is also discussed, and a correlation is introduced for diffusivity as a function of temperature. The evaluated value for diffusivity is then used in the CFD method to investigate the permeation rate of gas mixtures. Two snapshots of the simulated systems containing silicon carbide nanosheets, methane and hydrogen sulfide gases (yellow: silicon; green: carbon; white: hydrogen and purple: sulfur). Silicon and Carbon atoms are displayed with van der Waals modes. [Display omitted]
AbstractList This research discusses the separation of methane gas from three different gas mixtures, CH4/H2S, CH4/N2 and CH4/CO2, using a modified silicon carbide nanosheet (SiCNS) membrane using both molecular dynamics (MD) and computational fluid dynamics (CFD) methods. The research examines the effects of different structures of the SiCNSs on the separation of these gas mixtures. Various parameters including the potential of the mean force, separation factor, permeation rate, selectivity and diffusivity are discussed in detail. Our MD simulations showed that the separation of CH4/H2S, and CH4/CO2 mixtures was successful, while simulation demonstrated a poor result for the CH4/N2 mixture. The effect of temperature on the diffusivity of gas is also discussed, and a correlation is introduced for diffusivity as a function of temperature. The evaluated value for diffusivity is then used in the CFD method to investigate the permeation rate of gas mixtures.
This research discusses the separation of methane gas from three different gas mixtures, CH4/H2S, CH4/N2 and CH4/CO2, using a modified silicon carbide nanosheet (SiCNS) membrane using both molecular dynamics (MD) and computational fluid dynamics (CFD) methods. The research examines the effects of different structures of the SiCNSs on the separation of these gas mixtures. Various parameters including the potential of the mean force, separation factor, permeation rate, selectivity and diffusivity are discussed in detail. Our MD simulations showed that the separation of CH4/H2S, and CH4/CO2 mixtures was successful, while simulation demonstrated a poor result for the CH4/N2 mixture. The effect of temperature on the diffusivity of gas is also discussed, and a correlation is introduced for diffusivity as a function of temperature. The evaluated value for diffusivity is then used in the CFD method to investigate the permeation rate of gas mixtures. Two snapshots of the simulated systems containing silicon carbide nanosheets, methane and hydrogen sulfide gases (yellow: silicon; green: carbon; white: hydrogen and purple: sulfur). Silicon and Carbon atoms are displayed with van der Waals modes. [Display omitted]
Author Saghatchi, Roozbeh
Khataee, Alireza
Azamat, Jafar
Bayat, Golchehreh
AuthorAffiliation Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran%Integrated Manufacturing Technologies Research and Application Center, Faculty of Engineering and Natural Sciences, Sabanci University, Orhanli, Tuzla, Istanbul 34956, Turkey%Department of Basic Sciences, Farhangian University, Tehran, Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran ;Department of Environmental Engineering, Gebze Technical University, Gebze 41400, Turkey ;Institute of Research and Development, Duy Tan University, Da Nang 550000, Viet Nam
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  email: a_khataee@tabrizu.ac.ir, alirezakhataee@duytan.edu.vn
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Keywords Molecular dynamics
Gas separation
Computational fluid dynamics
Silicon carbide nanosheets
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Publisher Elsevier B.V
Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran%Integrated Manufacturing Technologies Research and Application Center, Faculty of Engineering and Natural Sciences, Sabanci University, Orhanli, Tuzla, Istanbul 34956, Turkey%Department of Basic Sciences, Farhangian University, Tehran, Iran%Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, Tabriz 51666-16471, Iran
Department of Environmental Engineering, Gebze Technical University, Gebze 41400, Turkey
Institute of Research and Development, Duy Tan University, Da Nang 550000, Viet Nam
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Snippet This research discusses the separation of methane gas from three different gas mixtures, CH4/H2S, CH4/N2 and CH4/CO2, using a modified silicon carbide...
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SubjectTerms Computational fluid dynamics
Gas separation
Molecular dynamics
Silicon carbide nanosheets
Title Separation of methane from different gas mixtures using modified silicon carbide nanosheet: Micro and macro scale numerical studies
URI https://dx.doi.org/10.1016/j.cjche.2019.12.005
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